Refuge from predation, the benefit of living in an extreme acidic environment?

Organisms living in extreme habitats require costly adaptations to cope with these conditions. Among the suggested potential benefits that trade off these costs is refuge from predation. To study these interactions in extreme environments, samples were taken in the cave Cueva de Villa Luz, Tabasco, Mexico, where more than 32 subterranean springs, some H(2)S rich, rise from the floor. Hydrogen sulfide gas plus oxygen is absorbed by freshwater, and oxidation forms concentrated sulfuric acid. Snottites, whitish hollow mucous tubes, hang from the ceiling of the cave. Fluid drops from these snottites were recorded as having pH values of 0-3. We report the discovery of a new species of nematode that thrives in the highly acidic environment of the snottite. Micro CT scan of snottites reveals a complex interaction between the acidic snottite, nematodes, and abundant nematode-eating mites. The nematode adaptation to low pH probably protects them against mite predation, for which nematodes are most likely the most important source of carbon in this sulfur-driven ecosystem.

[Characteristic of reproductive structure in the hemipopulation of a bat-parasitizing nematode Thominx neopulchra (Nematoda, Capillariidae)]

Features of reproductive structure of the Thominx neopulchra hemipopulation from Daubenton's bat from Zhiguli State Reserve are studied. It is established, that females and males of Th. neopulchra have different dynamics of coming in the host population. Males of the parasite invade the of Daubenton's bat population during all the year, while females infest the host only from May to November. Maturing of helminthes become slowed in winter period. Only about a half of of the host population is involved in the forming of the reproductive structure of Th. neopulchra hemipopulation.

Resolving phylogenetic incongruence to articulate homology and phenotypic evolution: a case study from Nematoda

Modern morphology-based systematics, including questions of incongruence with molecular data, emphasizes analysis over similarity criteria to assess homology. Yet detailed examination of a few key characters, using new tools and processes such as computerized, three-dimensional ultrastructural reconstruction of cell complexes, can resolve apparent incongruence by re-examining primary homologies. In nematodes of Tylenchomorpha, a parasitic feeding phenotype is thus reconciled with immediate free-living outgroups. Closer inspection of morphology reveals phenotypes congruent with molecular-based phylogeny and points to a new locus of homology in mouthparts. In nematode models, the study of individually homologous cells reveals a conserved modality of evolution among dissimilar feeding apparati adapted to divergent lifestyles. Conservatism of cellular components, consistent with that of other body systems, allows meaningful comparative morphology in difficult groups of microscopic organisms. The advent of phylogenomics is synergistic with morphology in systematics, providing an honest test of homology in the evolution of phenotype.

A new approach to identify species in Xiphinema americanum sensu lato

Four putative species belonging to the X. americanum group are known to transmit American nepoviruses and these nematodes and viruses are listed in European quarantine legislation. Identification of species in this group is therefore of particular importance for phytosanitary purposes, but is problematic because of the similar morphology of the putative species. As part of the Synthesys project BE-TAF 1769, eight collaborative institutions contributed material to Fera for study. Video technology allowed the best records of type material and in conjunction with photographic images created a 'virtual' collection of images that relies less on the deteriorating quality of museum specimens. Revised definitions of lip region and tail shape are considered to be the most stable characters for differentiation. Position of the amphidial aperture, development of the odontostyle collar and some established morphometric characters are considered of limited use although they retain value for latter stages of identification.

Female morphology of Philometra rubra (Nematoda: Philometridae), a parasite of the abdominal cavity of the striped sea-bass Morone saxatilis (Moronidae, Perciformes) in the USA

The nematode Philometra rubra (Leidy, 1856) (Philometridae) is redescribed from subgravid females found in the abdominal cavity of the fish Morone saxatilis (Walbaum) from South Carolina, USA in November 2008. The species is characterized by the presence of 14 cephalic papillae arranged in two circles, a relatively long oesophagus with a distinct anterior inflation, and well-developed papilla-like caudal projections. Cephalic papillae of the external circle differ from those in other congeners in that the dorso-lateral and ventro-lateral papillae are large, dome-shaped, whereas the dorso-dorsal and ventro-ventral papillae are small.

Three-dimensional reconstruction of the amphid sensilla in the microbial feeding nematode, Acrobeles complexus (Nematoda: Rhabditida)

Amphid sensilla are the primary olfactory, chemoreceptive, and thermoreceptive organs in nematodes. Their function is well described for the model organism Caenorhabditis elegans, but it is not clear to what extent we can generalize these findings to distantly related nematodes of medical, economic, and agricultural importance. Current detailed descriptions of anatomy and sensory function are limited to nematodes that recent molecular phylogenies would place in the same taxonomic family, the Rhabditidae. Using serial thin-section transmission electron microscopy, we reconstructed the anatomy of the amphid sensilla in the more distantly related nematode, Acrobeles complexus (Cephalobidae). Amphid structure is broadly conserved in number and arrangement of cells. Details of cell anatomy differ, particularly for the sensory neurite termini. We identify an additional sensory neuron not found in the amphid of C. elegans and propose homology with the C. elegans interneuron AUA. Hypotheses of homology for the remaining sensory neurons are also proposed based on comparisons between C. elegans, Strongyloides stercoralis, and Haemonchus contortus.

The first record of Molineus patens (Dujardin, 1845) (Nematoda, Molineidae) in the ermine (Mustela erminea L.) in Poland

A single specimen of the nematode Molineus patens (Dujardin, 1845) was isolated from the intestine of the ermine (Mustela erminea L.) found dead on a road in Lubuskie voivodeship (Western Poland) in July 2008. Since this is the first record of the parasite in the ermine from Poland, description, biometrical data and figures are given.

A record of Crenosoma vulpis (Rudolphi, 1819) (Nematoda, Crenosomatidae) from the Eurasian badger (Meles meles L.) from Poland

Three specimens of the nematode Crenosoma vulpis (Rudolphi, 1819) were isolated from the lungs of the Eurasian badger (Meles meles L.) found dead on a road in the north-western part of Wrocław (Lower Silesia, SW. Poland) in August 2008. Since this is the first record of the parasite in the badger from Poland, description, biometrical data and figures are given.

Morphology and diagnosis of some fourth-stage larvae of cyathostomines (Nematoda: Strongyloidea) in donkeys Equus asinus L. from Ethiopia

Fourth-stage larvae of four species of the Cyathostominae Nicoll, 1927 parasitic in donkeys Equus asinus L. from Ethiopia were identified mainly using moulting specimens. They are Cylicocyclus asini Matthee, Krecek & Gibbons, 2001, C. auriculatus (Looss, 1900) Chaves, 1930, Cyathostomum tetracanthum (Mehlis, 1831) Molin, 1861 (sensu Looss, 1900) and Cylindropharynx brevicauda Leiper, 1911. The larva of Cylicocyclus asini is similar to those of C. nassatus (Looss, 1900) Chaves, 1930 and C. leptostomum Kotlán, 1920, but differs from the former by the shape of the dorsal tooth in the oesophageal funnel, which is notably smaller than in C. asini but similar to that of C. leptostomum. However, the larva of C. asini differs from that of C. leptostomum in the size of the buccal capsule, which is notably larger than in C. leptostomum but similar to that of C. nassatus. The larva of C. auriculatus is very similar to that of C. insigne (Boulenger, 1917) Chaves, 1930. The larva of Cyathostomum tetracanthum is similar to those of Cylicostephanus bidentatus (Ihle, 1925) Lichtenfels, 1975, C. goldi (Boulenger, 1917) Lichtenfels, 1975 and Cyathostomum catinatum Looss, 1900. The larva of Cylindropharynx brevicauda is similar to that of Petrovinema skrjabini (Ershov, 1930) Ershov, 1943 but smaller in size. Including the four cyathostomine species identified in the present study, 36 species belonging to 13 genera have so far been described and identified of a total of 64 recognised and confirmed species of equine strongyles.

[Sizes and sex ratio as indices of inter- and intraspecific relationships of the nematodes from murine rodents]

On the base of morphometric analysis and investigation of sex ratio in some nematode species from murine rodents the next tendencies were revealed: 1. If the durations of life in nematode males and females are about the same, the sex ratio in a monoinfected host is near 1/3 males and 2/3 females. 2. Presence of other helminth species moves the sex ratio towards males, but in the case of polyinfection the percentage of males decreases again. 3. Solitary helminth specimens have minimal size, and as the parasite number in a host increases, the length and width of nematodes at first in crease, and then begin to decrease. Bounds of these increase and decrease depend on the size, as well as the taxonomic belonging of a nematode. 4. In the presence of other helminths, the decrease of size in a nematode species take place under lesser parasite number than in the case of nomoinfection. Decrease of the absolute size of nematodes and female percentage reduces energy demands of the parasite pool in a host body, because females are larger than males and moreover they spend nutrients and energy for reproduction. It leads to the reciprocal regulation of the helminth species abundance at the level of populations.

Comparative lophotrochozoan neurogenesis and larval neuroanatomy: recent advances from previously neglected taxa

Recently, a number of neurodevelopmental studies of hitherto neglected taxa have become available, contributing to questions relating to the evolution of the nervous system of Lophotrochozoa (Spiralia + Lophophorata). As an example, neurogenesis of echiurans showed that these worm-shaped spiralians, which as adults do not exhibit any signs of segmentation, do show such traits during ontogeny, e.g. by segmentally arranged perikarya and commissures. Similarly, sipunculan worms, which have a single ventral nerve cord in the adult stage, develop this nerve cord by gradual fusion of a paired larval nerve during metamorphosis, and show transitional stages of segmentation. These findings indicate that echiurans, annelids and sipunculans stem from a segmented ancestor. By contrast, no traces of body segmentation are present during neurogenesis of basal molluscs. However, a tetraneurous condition (i.e. one pair of ventral and one pair of lateral nerve cords), as is typical for Mollusca, and a serotonergic larval apical organ that matches the complexity of polyplacophoran apical organs, were found in larval entoprocts, thus strongly supporting a mollusc-entoproct clade. Within the Lophophorata (Ectoprocta + Phoronida + Brachiopoda), data on nervous system development for any of the 3 lophophorate phyla are as of yet too scarce for profound phylogenetic inferences. Taking into account the most recent advances in molecular phylogenetics and developmental neurobiology, a scenario emerges that proposes a clade comprising Sipuncula + Annelida (including Echiura) on the one hand and a monophyletic assemblage of Entoprocta + Mollusca on the other.

Multipartite symbioses among fungi, mites, nematodes, and the spruce beetle, Dendroctonus rufipennis

The spruce beetle, Dendroctonus rufipennis, is an eruptive forest pest of significant economic and ecological importance. D. rufipennis has symbiotic associations with a number of microorganisms, especially the ophiostomatoid fungus Leptographium abietinum. The nature of this interaction is only partially understood. Additionally, mite and nematode associates can mediate bark beetle-fungal interactions, but this has not yet been studied for spruce beetles. In this study, we found eight mite species associated with spruce beetles: Tarsonemus ips, T. endophloeus, Histiogaster arborsignis, Dendrolaelaps quadrisetus, Proctolaelaps hytricoides, Trichouropoda alascae, T. n. sp. nr dalarenaensis, and Urobovella n. sp 767. The most prevalent species was H. arborsignis. In addition, 75% of beetles examined carried nematodes, with six species represented. These included a new species of Parasitorhabditis, Ektaphelenchus obtusus, Bursaphelenchus n. sp. 727, Aphelenchoides n. sp., Panagrolaimus sp., and Mykoletzkya ruminis. H. arborsignis showed strong feeding and oviposition preferences for L. abietinum among four fungal species tested in laboratory assays. Information on our attempts to culture the various nematode species collected from D. rufipennis is also provided. Bursaphelenchus were cultured from D. rufipennis nematangia plated on agar containing L. abietinum but not sterile agar. Thus, L. abietinum plays an important role in these gallery communities, affecting the tree-killing bark beetle, its phoretic mites, and nematodes. These data add to our understanding of bark beetle-microorganism interactions.

Multipartite symbioses among fungi, mites, nematodes, and the spruce beetle, Dendroctonus rufipennis

The spruce beetle, Dendroctonus rufipennis, is an eruptive forest pest of significant economic and ecological importance. D. rufipennis has symbiotic associations with a number of microorganisms, especially the ophiostomatoid fungus Leptographium abietinum. The nature of this interaction is only partially understood. Additionally, mite and nematode associates can mediate bark beetle-fungal interactions, but this has not yet been studied for spruce beetles. In this study, we found eight mite species associated with spruce beetles: Tarsonemus ips, T. endophloeus, Histiogaster arborsignis, Dendrolaelaps quadrisetus, Proctolaelaps hytricoides, Trichouropoda alascae, T. n. sp. nr dalarenaensis, and Urobovella n. sp 767. The most prevalent species was H. arborsignis. In addition, 75% of beetles examined carried nematodes, with six species represented. These included a new species of Parasitorhabditis, Ektaphelenchus obtusus, Bursaphelenchus n. sp. 727, Aphelenchoides n. sp., Panagrolaimus sp., and Mykoletzkya ruminis. H. arborsignis showed strong feeding and oviposition preferences for L. abietinum among four fungal species tested in laboratory assays. Information on our attempts to culture the various nematode species collected from D. rufipennis is also provided. Bursaphelenchus were cultured from D. rufipennis nematangia plated on agar containing L. abietinum but not sterile agar. Thus, L. abietinum plays an important role in these gallery communities, affecting the tree-killing bark beetle, its phoretic mites, and nematodes. These data add to our understanding of bark beetle-microorganism interactions.

Presence and species identification of the gapeworm Mammomonogamus laryngeus () (Syngamidae: Nematoda) in a semi-wild population of Sumatran orangutan (Pongo abelii) in Indonesia

One adult syngamid nematode parasite couple was found during routine clinical observation in quarantine at the former Bohorok Rehabilitation Station from sputum of Pongo abelli and determined as Mammomonogamus laryngeus [Railliet, A., 1899. Syngame laryngieu du boeuf. Comptes Rendus Hebdomadaires des Séances et Mémoires de la Société de Biologie 11, 18-21]. This finding confirmed previous record of ova and adult syngamid nematodes, determined by Collet et al. [Collet, J.-Z., Galdikas, B.M.F., Sugarjito, J., Jojosudharmo, S., 1986. A coprological study of parasitism in orangutan (Pongo pygmaeus) in Indonesia. Journal of Medical Primatology 15, 121-129] as Mammomonogamus sp. only, in orangutans kept in the Bohorok Orangutan Rehabilitation Centre (Northern Sumatra, Indonesia) and presented a serious health hazard to rehabilitants in this locality. Morphometrical features and the first description of the parasite from orang-utan were presented and documented. Coprological monitoring of infection in rehabilitants in this area as well as among the wild population of orangutan is necessary.

[Trophic types of the nematodes]

The aim of the article is to present trophic types (i.e non-systematic groups feeding on the same kind of food) of the nematodes. Seven trophic types (covering all known species) are described: (1) microbivores (nematodes feeding on unicellular microorganisms) with two examples: C. elegans and the nematodes of two families: Steinernematidae and Heterorhabditidae, (2) parasites of Vertebrates, (3) parasites of Invertebrates with example of the family Acugutturidae, (4) parasites of plants with two examples: Tylenchorhynchus dubius and Heterodera schachtii, (5) parasites of fungi, (6) predatory nematodes, (7) omnivores (nematodes feeding on different kinds of food). Basic information on the anatomy of the alimentary canal and feeding behaviour of the nematodes are also provided.

[Helminth fauna of Hemidactylus turcicus (Linnaeus,1758) (Turkish gecko) collected from Hatay]

Twenty two Hemidactylus turcicus (Turkish Gecko) collected from Hatay were examined for helminths between 2000-2008 years. As a result of this study, 2 helminth species (Spauligodon laevicauda and Macracanthorynchus catulinus) were found. This is the first time that these helminth species have been found in Turkey.

[Main evolution lines of plant parasitic nematodes of the order Aphelenchida siddiqi, 1980]

Phylogenic models for each aphelenchid family and phylogeny of the order Aphelenchida as a whole were developed on the base of detailed comparative morphological and bionomical analysis of the order. Bionomical and morphological characters having a phylogenetic significance were selected. Classification proposed by Hunt, 1993 was used as the starting-point of the study. Life cycles and their evolution in Aphelenchida were analyzed on the base of phylogenetic trees. It is concluded, that aphelenchid ancestors combined mycophagy, plant parasitic, and partly predaceous feeding. Relations of the primitive Aphelenchida with their symbionts developed from the spots of the fungal organic matter decomposition in the "nema- tode-fungi" associations, followed by a transition to the temporary endoparasitic habit omitting ectoparasitism. With a complication of the nematodes' life cycles, the insect vector (detritophagous or pollinator) transformed into the real insect host of the parasitic nematode in the 2-host life cycle (with the plant and insect hosts) or in the obligate 1-host entomoparasitic life cycle of the aphelenchid nematodes. Specialization of the aphelenchid life cycles to insect vectors followed two main ways. In the first way, the resistant to unfavorable environmental conditions nematode juveniles, known already for the primitive aphelenchids transformed into dispersal juveniles, and later into parasitic juveniles. In the second evolution line the dispersal function were laid on inseminated but non-gravid (not egg-producing) females. Both above-mentioned trends of parasitic specialization were arisen independently in different phylogenetic lines of the Aphelenchida. In each line of the parasitic development in different nematode families, the highly specialized ectoparasites, as well as endoparasites on insects, were formed. In the evolution of life cycle of parasitic nematodes, a tendency to decrease the body size took place. The function of dispersion shifted to more junior juvenile stage (the first line of specialization), or body sizes of non-gravid females and males copulated with the latter become smaller (second specialization line, till the development of dwarf males and location of the males and small inseminated non-gravid females in the uterus of gravid nematode female). The hypothetic fundamental model of the parasitic cycles' specialization in the order Aphelenchida was developed, basing on the comparison of known life cycles in different phylogenetic lines within aphelenchid families. The conception of the geographic origin and historic dispersal of the order Aphelenchida was proposed. The origin of the superfamily Aphelenchoidoidea and order Aphelenchida as a whole probably took place in eastern areas of Gondwana (parts of which are recently Hindustan, Indo-Malaya, Australia and Antarctica), presumably in the Devonian period. When the Gondwana and Laurasia paleocontinents were joined into Pangea in Carbon period, aphelenchids dispersed in the Laurasian part of Pangea. Endemism of the advanced entomophilic ectoparasitic Acugutturidae indicates on the secondary hotbed of speciation in Caribbean area. Development of the anhydrobiotic adaptations in the Aphelenchida promoted their successful invasion in the cold regions of Holarctic. Another important adaptations was the transformation of the initially resistant nematode life cycle phase into the dispersal phases vectored by insects.

Meagre Argyrosomus regius (Osteichthyes) as host of a gonad-infecting species of Philometra (Nematoda: Philometridae) off the Atlantic coast of Portugal

Subgravid females (up to 439 mm long) of the nematode Philometra sp. were found in meagre Argyrosomus regius (Asso, 1801) (Sciaenidae: Perciformes) off the southern Atlantic coast of Portugal in 2006. The general morphology of these nematodes somewhat resembles that of Philometra lateolabracis (Yamaguti, 1935), but the gravid females of the species from A. regius are apparently much longer. This is the first documented record of a gonad-infecting species of Philometra in marine fishes off the Atlantic coast of Europe. The possible importance of the gonad-parasitizing Philometra spp. as pathogens of marine fishes is stressed.

Handed asymmetry, handedness reversal and mechanisms of cell fate determination in nematode embryos

Embryos of the nematode Caenorhabditis elegans exhibit left-right asymmetry with an invariant handedness. The embryonic cell lineage is asymmetrical: although the animal is generally bilaterally symmetrical with only a few left-right asymmetries, many of its contralaterally analogous cells arise via different lineages on the two sides of the embryo. Larvae and adults also exhibit left-right asymmetries with a handedness that is normally invariant. The frequency of animals with opposite handedness was increased among the progeny of adults exposed to the mutagen ethyl methanesulphonate and among animals that developed from embryos treated in early cleavage with chitinase to destroy the egg shell. Reversal of embryonic handedness was accomplished directly by micromanipulation at the 6-cell stage, resulting in mirror-image but otherwise normal development into healthy, fertile animals with all the usual left-right asymmetries reversed. This demonstrates that (1) the handedness of cell positions in the 6-cell embryo dictates handedness throughout development; (2) at this stage the pair of anterior blastomeres on the right is equivalent to the pair on the left; and (3) the extensive differences in fates of lineally homologous cells on the two sides of the animal must be dictated by cellular interactions, most of which are likely to occur early in embryogenesis and appear to have been conserved in widely diverged nematode species.

A new genus and species of acuarioid nematode (Acuariidae: Seuratiinae) in petrels Pterodroma externa and P. neglecta from the Juan Fernández Islands, Chile

A new genus and species of Seuratiinae is described based on adults recovered from the Juan Fernández and Kermedec Petrels (Pterodroma externa and P. neglecta) from the Juan Fernández Islands of Chile (south Pacific). Navonia pterodromae n. gen., n. sp. is distinguished from the other genera and species in Seuratiinae by the combination of the following characters: (1) cordons arising from commissures of buccal lips originating a finely denticulate collarette divided into 2 lateral lobes, and detached from underlying cuticle; (2) inconspicuous simple to bicuspid deirids; (3) presence of area rugosa; and (4) presence of a large left spicule in the male. It is also distinguished from some genera and species in this subfamily by the presence of a lateral furrow. Seuratia shipleyi was also recorded from P. externa. These are the first records of helminths in these 2 hosts and the first records of Seuratiinae from Chile.

A new species of Parapharyngodon (Nematoda: Pharyngodonidae) and other helminths in Typhlosaurus lineatus (Squamata: Scincidae), from southern Africa

Parapharyngodon baueri n. sp. (Nematoda: Pharyngodonidae) from the large intestine of the legless skink, Typhlosaurus lineatus, is described and illustrated. Parapharyngodon baueri is the 42nd species assigned to the genus and differs from other species in the genus by possessing four pairs of caudal papillae, no cloacal lip adornment, and a sharply pointed spicule of 79-98 microm. The cestode, Oochoristica truncata, the nematode, Thubunaea fitzsimonsi, third-stage nematode larvae and acanthocephalan cystacanths were also present.

[Taxonomy and evolution of the genus Pratylenchoides (Nematoda: Pratylenchidae)]

The amended diagnosis of the genus Pratylenchoides and list of its valid species with synonyms are given. All the efficient diagnostic characters are listed. Modern taxonomic standard for the description of Pratylenchoides species is proposed; it may be used also in taxonomic databases. Tabular and text keys for all species of the genus are given. Five following groups are considered within the genus Pratylenchoides. The group arenicola differs from other groups in the primitive adanal bursa type; the groups magnicauda, crenicauda, ritteri, and megalobatus differ from each other in the position of cardium along the body axis in relation to the pharyngeal gland nuclei, pharynx types are named according to the stages of its evolution from the primitive tylenchoid pharynx (cardium situated posteriorly) to the advanced hoplolaimoid one (cardium situated anteriorly). Diagnoses and species compositions of the groups are given. Basing on the matrix of species characters, the dendrogram has been generated for all species of Pratylenchoides and for all characters (UPGMA, distance, mean character difference, random, characters ordered). Taking in view that the PAUP software gives equal weights to all characters, including the most important ones which define the prognostic species groups, the separate dendrograms for each prognostic species group were generated using the same above mentioned tree parameters. On the base of the records of Pratylenchoides species the matrices of plant host ranges, geographic distribution, and preferred soil-climatic conditions were developed. The dendrograms of the faunal similarities were generated using these matrices, with conclusions on a possible origin and evolution of the genus. The genus evolved from the flood lands with swampy soils and prevalence of dicotyledons (herbaceous Lamiaceae and woody Salicaceae families) to the forest mainland communities with balanced humidity and predominance of herbaceous Poaceae and Fabaceae with woody Fagaceae, Betulaceae, and Oleaceae. The leading factor of the evolutional adaptation to soil-climatic conditions was the factor of humidity, but its significance gradually decreased with the host change to more advanced plant taxa adapted to the communities with more dry balanced humidity. The genus took its origin on the south shores of Laurasia in the Cainozoe. Later, when Hindistant and Arabian Peninsula joined with Laurasia creating the Himalayas barrier, the Pratylenchoides spp. distributed by two branches: the northern one moved into Central Asia, East Europe and North America, and the south branch came into Indo-Malaya, West Asia and the north of Africa. The remnants of the ancient species groups remain in West Europe and East Asia. In the North America the genus gave an origin to its sister genus Apratylenchoides, which spread to the south up to Antarctica; another advanced branch spread in the North America reaching Alaska.

Functional diversity of nematode communities in the southwestern North Sea

A range of biological traits of nematode species were combined to identify patterns in the functional composition of their assemblages collected at 19 soft-bottom stations in the southwestern North Sea with the primary aim to determine which environmental variables control communities. We used 19 categories of five biological traits thought or known to represent an important ecological function. These were related to buccal morphology, tail shape, body size, body shape and life history strategy. Data on trait membership was provided by biological information on species and genera. A total of 79 different trait combinations were recorded. Results from correlation analyses revealed several significant relationships between traits. Some trait combinations were shared by different species and genera, and the ratio of realised versus total number of possible trait combinations of < 1 suggested that some trait combinations were not represented by the nematode fauna from this region. The functional composition of nematodes was strongly linked to median particle diameter and silt content of the sediment and water depth. The approach adopted and our attempts at defining and analysing functional attributes of nematode communities raised a number of conceptual and methodological issues which are discussed.